Engineering Group
Annals of Robotics and Automation DOI
Arifa Siddika* and Shahab Siddiqi Broomfield Hospital, Mid Essex NHS Trust, Chelmsford, Essex, CM1 7ET, UK Dates: Received: 15 February, 2017; Accepted: 10 March, 2017; Published: 11 March, 2017 *Corresponding author: Arifa Siddika, MBBS, FRCS, Broomfield Hospital, Mid Essex NHS Trust, Chelmsford, Essex, CM1 7ET, UK, E-mail:
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Case Report
Robotic Modified Orr-Loygue Rectopexy for Internal and External Rectal Prolapse
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Abstract Laparoscopic ventral mesh rectopexy is the gold standard treatment for external rectal prolapse and an excellent treatment for symptomatic internal rectal prolapse. However, there is a recurrence rate for this procedure, part of which can be attributed to the untreated posterior rectal prolapse component. Here we describe a robotic Orr-Loygue rectopexy where an additional posterior mesh rectopexy is performed. This differs from other surgical descriptions in that the posterior mesh can be sutured to the rectal tube without risking rectal denervation, which would be a difficult proposition using a laparoscopic approach.
Introduction Laparoscopic ventral mesh rectopexy (LVMR) is the treatment of choice for external rectal prolapse (ERP) and there is good evidence to support its use for symptomatic internal rectal prolapse (IRP) [1]. A significant number of patients who undergo LVMR for symptoms attributable to IRP either do not improve or have a recurrence, as do 4% of patients who have had LVMR for ERP [2]. A proportion of the recurrence is thought to be due to significant residual posterior and/or lateral prolapse [3]. Ventral rectal fixation addresses anterior prolapse directly, but only elevates remaining circumferential prolapse indirectly. A modification of the LVMR, known as modified Orr-Loygue rectopexy (MOLR), aims to treat posterior IRP and ERP by suture or mesh fixation of mesorectum to the sacral promontory. However, posterior rectopexy has a high rate of recurrence [4,5]. Fixation of mesh to mesorectum will only indirectly secure the underlying rectal wall [6,7]. Additionally, fixation of mesh to mesorectal fat is insecure. Fixation points
Workup The preoperative workup consists of anorectal physiology studies, anal ultrasound, and defecating proctography. In equivocal cases, examination under anesthesia using a circular anal dilator is useful to assess the size, mural thickness, and location of take-off of the prolapse (Figure 1).
Operation After general anesthesia with spinal infiltration, Intravenous antibiotic prophylaxis is administered and an indwelling urinary catheter is placed. A modified lithotomy position is used where the patient’s legs are placed in adjustable stirrups with sequential calf compression and the arms are wrapped and tucked alongside the body. A ‘Pink Pad’ (Pigazzi Patient Positioning System™, Xodus Medical and New Kensington, PA USA) is used to secure the body and a body warmer is applied. A 12mm trocar is inserted supra-umbilically and a
between mesh and rectal muscle or the anterior longitudinal ligament have a failure pressure higher than the maximum human intra-abdominal pressure, but fixation of mesh to mesorectum will fail at a lower pressure [8]. A narrow posterior dissection is needed to avoid rectal denervation [9]. This limits the distal extent of dissection. Theoretically, dissecting to Waldeyer’s fascia will allow suture fixation of mesh to the muscular rectal tube. This inherently stronger fixation may reduce recurrence, especially for low take-off IRP and ERP. This narrow distal dissection is achievable more readily using a robotic platform rather than a laparoscopic approach.
Figure 1
001 Citation: Siddika A, Siddiqi S (2017) Robotic Modified Orr-Loygue Rectopexy for Internal and External Rectal Prolapse. Ann Robot Automation 1(1): 001-003.